| Network Working Group | M. Miller |
| Internet-Draft | P. Saint-Andre |
| Intended status: Standards Track | Cisco Systems, Inc. |
| Expires: December 06, 2013 | June 04, 2013 |
PKIX over Secure HTTP (POSH)
draft-miller-posh-00
This document defines two methods that make it easier to deploy certificates for proper server identity checking in application protocols. The first method enables a TLS client to obtain a TLS server's end-entity certificate over secure HTTP as an alternative to standard Public Key Infrastructure using X.509 (PKIX) and DNS-Based Authentication of Named Entities (DANE). The second method enables a source domain to securely delegate an application to a derived domain using HTTPS redirects.
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This Internet-Draft will expire on December 06, 2013.
Copyright (c) 2013 IETF Trust and the persons identified as the document authors. All rights reserved.
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Channel encryption with TLS depends on proper checking of the server's identity, as specified in [RFC6125] or its application-specific equivalent for Public Key Infrastructure using X.509 (PKIX) [RFC5280] and in [RFC6698] for DNS-Based Authentication of Named Entities (DANE). However, in multi-tenanted environments it is effectively impossible for a hosting service to offer the correct PKIX certificates on behalf of a hosted domain, since neither party wants the hosting service to hold the hosted domain's private keys. As a result, typically the hosting service offers its own PKIX certificate (say, for hosting.example.net), which means that TLS clients need to "just know" that the hosted domain (say, foo.example.com) is offered at the hosting service rather than the hosted domain. Further background information on this problem can be found in [XMPP-DNA].
This situation is clearly insecure. It is true that DNS-based technologies are emerging for secure delegation, in the form of DNS SRV records [RFC2782] or their functional equivalent when DNS Security [RFC4033] is used, along with DNS-Based Authentication of Named Entities (DANE) [RFC6698]. However, these technologies are not yet widely deployed and might not be deployed in the near future for domains outside the most common top-level domains. Hosting services and hosted domains need a method that can be deployed more quickly to overcome the lack of secure delegation and proper server identity checking on the Internet today.
POSH (PKIX Over Secure HTTP) provides two interconnected methods for solving the problem, at least with application protocols other than HTTP:
The discussion venue for this document is the posh@ietf.org mailing list; visit https://www.ietf.org/mailman/listinfo/posh for subscription information and discussion archives.
This document inherits security terminology from [RFC5280]. The terms "source domain", "derived domain", "reference identifier", and "presented identifier" are used as defined in the "CertID" specification [RFC6125].
This document uses the Extensible Messaging and Presence Protocol (XMPP) [RFC6120] in its examples. Whether connections are made from an XMPP client to an XMPP server (based on a DNS SRV record of "_xmpp-client._tcp") or between XMPP servers ("_xmpp-server._tcp"), the XMPP initiating entity acts as a TLS client and the XMPP receiving entity acts as a TLS server. Therefore, to simplify discussion this document uses "_xmpp-client._tcp" to describe both cases, unless otherwise indicated.
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "NOT RECOMMENDED", "MAY", and "OPTIONAL" in this document are to be interpreted as described in [RFC2119].
Server identity checking (see [RFC6125]) involves three different aspects:
When POSH is used, the first two aspects remain the same: the TLS server proves it identity by presenting a PKIX certificate [RFC5280] and the certificate is checked according to the rules defined in the appropriate application protocol specification (such as [RFC6120] for XMPP). However, the TLS client obtains the material it will use to verify the server's proof by retrieving a JSON Web Key (JWK) set [JOSE-JWK] over HTTPS ([RFC2616] and [RFC2818]) from a well-known URI [RFC5785]. (In this case, secure DNS is not necessary since the HTTPS retrieval mechanism relies on the chain of trust based on the public key infrastructure.)
The process for retrieving a PKIX certificate over secure HTTP is as follows.
GET /.well-known/posh._xmpp-client._tcp.json HTTP/1.1
Host: im.example.com
If the source domain HTTPS server possesses the certificate information, it responds to the HTTPS GET with a success status code and the message body set to a JSON Web Key (JWK) set [JOSE-JWK]. The JWK set MUST contain at least one JWK with the following information:
Example Content Response
HTTP/1.1 200 OK
Content-Type: application/jwk-set+json
Content-Length: 2785
{
"keys": [
{
"kty": "RSA",
"kid": "im.example.com:2011-07-04",
"n": "ANxwssdcU3LbODErec3owrwUhlzjtuskAn8rAcBMRPImn5xA
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y-jAzK8",
"e": "AQAB",
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}
]
}
The TLS client uses the provided certificate to verify the TLS connection to the TLS server. In order for the TLS client to verify the identity of the TLS server, it MUST ensure that the PKIX certificate presented by the TLS server during the TLS negotiation matches the certificate that it obtained via POSH.
The TLS client MAY verify the certificate chain provided in the JWK, but it SHOULD consider the final issuer certificate to be a trust anchor for the purposes of this verification only. Once it has verified the identity of the TLS server, the TLS client MUST NOT continue to treat this final issuer certificate as a trust anchor.
If the source domain HTTPS server has a reference to the certificate information, it responds to the HTTPS GET with a redirect status code (e.g., 302, 303, 307, or 308), and includes a 'Location' header, which MUST specify an HTTPS URL.
Example Redirect Response
HTTP/1.1 302 Found
Location: https://hosting.example.net/.well-known
/posh._xmpp-client._tcp.json
The client follows the redirect, the HTTPS server for the URI at which the client has been redirected responds to the request, and the client performs actions appropriate to the new response (whether it is a possession, a reference, or another redirect).
Care needs to be taken regarding the redirect mechanism is used for delegation. Clients might remember the redirected location in place of the original, which can lead to verification mismatches when a source domain is migrated to a different delegated domain.
To mitigate this concern, source domains SHOULD use only temporary redirect mechanisms, such as HTTP status codes 302 (Found) and 307 (Temporary Redirect). Clients MAY treat any redirect as temporary, ignoring the specific semantics for 301 (Moved Permanently) and 308 (Permanent Redirect) [HTTP-STATUS-308].
To protect against circular references, clients MUST NOT follow an infinite number of redirects. It is RECOMMENDED that clients follow no more than 10 redirects, although applications or implementations can require that fewer redirects be followed.
POSH can benefit from additional HTTPS security mechanisms, such as HTTP Strict Transport Security [RFC6797] and key pinning [KEYPIN], especially if the TLS client shares some information with a common HTTPS implementation (e.g., platform-default web browser).
The delegation from the source domain to the delegated domain can be considered secure if the certificate offered by the TLS server matches the POSH certificate, regardless of how the POSH certificates are obtained.
POSH processes MUST be complete before the end of the TLS handshake for the application protocol, so that the TLS client can perform verification of reference identifiers. Ideally a TLS client ought to perform the POSH processes in parallel with other application-level negotiation; this is sometimes called the "happy eyeballs" approach, similar to [RFC6555] for IPv4 and IPv6. However, a TLS client might delay as much of the application-level negotiation in order to gather all of the POSH-based verification material. For instance, a TLS client might not open the socket connection until it retrieves the PKIX certificates via POSH.
Ideally, the TLS client relies on the expiration time of the certificate obtained via POSH, and not on HTTP caching mechanisms. To that end, the HTTPS servers for source and derived domains SHOULD specify a 'Cache-Control' header indicating a short duration (e.g., max-age=60) or "no-cache" to indicate that the response (redirect or content) is not appropriate to cache at the HTTP level.
To indicate alternate PKIX certificates (such as when an existing certificate will soon expire), the returned JWK set MAY contain multiple JWK objects. The JWK set SHOULD be ordered with the most relevant certificate first as determined by the application service operator (e.g., the renewed certificate), followed by the next most relevant certificate (e.g., the certificate soonest to expire). Here is an example:
{
"keys":[
{
"kty": "RSA",
"kid": "hosting.example.net:2011-07-04",
"n": "AM-ktWkQ8btj_HEdAA6kOpzJGgoHNZsJmxjh_PifpgAUfQeq
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"e": "AQAB",
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},
{
"kty": "RSA",
"kid": "hosting.example.net:2013-07-04",
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"e": "AQAB",
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]
}
]
}
This document supplements but does not supersede the security considerations provided in specifications for application protocols that decide to use POSH (e.g., [RFC6120] and [RFC6125] for XMPP). Specifically, communication via HTTPS depends on checking the identity of the HTTP server in accordance with [RFC2818].
Additionally, the security of POSH can benefit from other HTTP hardening protocols, such as HSTS [RFC6797] and key pinning [KEYPIN].
Protocols that use POSH MUST register an appropriate well-known URI or URIs [RFC5785] with the IANA. The IANA registration policy [RFC5226] is Specification Required.
The following sections register two such URIs for XMPP.
This specification registers the "posh._xmpp-client._tcp.json" well-known URI in the Well-Known URI Registry as defined by [RFC5785].
URI suffix: posh._xmpp-client._tcp.json
Change controller: IETF
Specification document(s): [[ this document ]]
This specification registers the "posh._xmpp-server._tcp.json" well-known URI in the Well-Known URI Registry as defined by [RFC5785].
URI suffix: posh._xmpp-server._tcp.json
Change controller: IETF
Specification document(s): [[ this document ]]
Thanks to Dave Cridland, Max Pritikin, and Joe Salowey for their feedback.